Preamble Sets Matched to Uplink Transmission Conditions

1. A method in a wireless device for transmitting a preamble sequence to a network node, the method comprising: configuring a number of preamble sequences into two or more preamble sets, wherein each preamble set is associated with at least one respective uplink transmission condition and at least one of the preamble sequences comprises a concatenation in time of one or more identical short sequences (s[n]), each of the short sequences having a same time duration (T) as an orthogonal frequency-division multiplexing, OFDM, symbol used for carrying data traffic in a radio access network of the wireless device; determining a transmission condition of an uplink from the wireless device to the network node; and selecting one out of the two or more preamble sets based on the determined transmission condition to be a selected preamble set, and a preamble sequence from the selected preamble set to be a selected preamble sequence; as well as transmitting the selected preamble sequence on the uplink.

2. The method according to claim 1 , wherein each preamble set is further associated with at least one respective preamble sequence processing capability and/or detector implementation of the network node.

3. The method according to claim 1 , further comprising receiving information from the network node related to the transmission condition of the uplink.

4. The method according to claim 1 , wherein the configuring further comprises configuring the preamble sequences into preamble sets based on a list of allowable preamble sequences, and/or based on a list of allowable combinations of transmission conditions and preamble sequences.

5. The method according to claim 1 , wherein the configuring further comprises assigning a respective power ramping scheme to each of the two or more preamble sets, and wherein the transmitting further comprises transmitting the selected preamble sequence according to the respective power ramping scheme of the selected preamble set.

6. The method according to claim 1 , wherein the configuring further comprises re-configuring an existing configuration of preamble sequences into new preamble sets based on a received re-configuration command.

7. The method according to claim 1 , wherein the determining comprises determining the transmission condition as a transmission condition metric value based on any of: a signal-to-noise ratio, SNR, condition of the uplink; an interference level condition of the uplink; a transmission load condition of the uplink; a channel coherence time condition of the uplink; a Doppler spread condition of the uplink; a cell size of a cell of the network node; a preamble sequence processing capability of the network node; and a detector implementation of the network node.

8. The method according to claim 1 , wherein the selecting further comprises selecting a preamble set based on a list of allowable preamble sequences, and/or based on a list of allowable combinations of transmission conditions and preamble sequences.

9. The method of claim 1 wherein each of the preamble sequences comprises the concatenation in time of the one or more identical short sequences (s[n]), each of the short sequences having the same time duration (T) as the OFDM symbol used for carrying the data traffic in the radio access network of the wireless device.

10. The method of claim 9 wherein a plurality of the preamble sequences has a different number of repetitions of the short sequences.

11. The method of claim 10 wherein a plurality of the preamble sequences has a different number of repetitions of the short sequences.

12. A method in a network node for receiving and detecting a preamble sequence transmitted over an uplink from a wireless device to the network node, the preamble sequence belonging to one out of two or more preamble sets, where each preamble set of the two or more preamble sets comprises a disjoint subset of a plurality of preamble sequences, the method comprising: configuring, for each preamble set, a detector to detect a preamble sequence belonging to the preamble set, wherein each preamble set is associated with at least one respective transmission condition of the uplink and at least one of the plurality of preamble sequences comprises a concatenation in time of one or more identical short sequences (s[n]), each of the short sequences having a same time duration (T) as an orthogonal frequency-division multiplexing, OFDM, symbol used for carrying data traffic in a radio access network of the network node; receiving a radio signal from the wireless device over the uplink comprising the preamble sequence; detecting the preamble sequence by the configured detectors where the preamble sequence belongs to a preamble set of the two or more preamble sets; and determining the at least one respective transmission condition of the uplink based on the detected preamble sequence.

13. The method according to claim 12 , wherein each preamble set is further associated with at least one respective preamble sequence processing capability and/or detector implementation of the network node.

14. The method according to claim 12 , further comprising transmitting, to the wireless device, information related to a transmission condition of the uplink.

15. The method according to claim 14 , wherein the transmitting comprises transmitting a message to the wireless device comprising information related to a preamble sequence processing capability, and/or a detector implementation of the network node.

16. The method according to claim 14 , wherein the transmitting comprises transmitting a list of allowable preamble sequences and/or a list of allowable combinations of uplink transmit conditions and preamble sequences to the wireless device.

17. The method according to claim 12 , further comprising generating and transmitting a re-configuration command to the wireless device, prompting the wireless device to re-configure an existing configuration of preamble sequences into new preamble sets.

18. The method of claim 12 wherein each of the preamble sequences comprises the concatenation in time of the one or more identical short sequences (s[n]), each of the short sequences having the same time duration (T) as the OFDM symbol used for carrying the data traffic in the radio access network of the network node.

19. The method of claim 12 wherein at least two of the two or more preamble sets are associated with a different detection window.

20. A wireless device arranged to transmit a preamble sequence to a network node, the wireless device comprising: a memory; at least one processor configured to execute instructions stored in the memory, whereby when executed, the wireless device is configured to: configure a number of preamble sequences into two or more preamble sets, wherein each preamble set is associated with at least one respective uplink transmission condition and at least one of the preamble sequences comprises a concatenation in time of one or more identical short sequences (s[n]), each of the short sequences having a same time duration (T) as an orthogonal frequency-division multiplexing, OFDM, symbol used for carrying data traffic in a radio access network of the wireless device; determine a transmission condition of an uplink from the wireless device to the network node; and select one out of the two or more preamble sets based on the transmission condition to be a selected preamble set, and a preamble sequence from the selected preamble set to be a selected preamble sequence; and a communication interface operatively coupled to the at least one processor and arranged to transmit the selected preamble sequence on the uplink.

21. The wireless device according to claim 20 , wherein each preamble set is further associated with at least one respective preamble sequence processing capability and/or detector implementation of the network node.

22. The wireless device according to claim 20 , wherein the wireless device is further arranged to assign a respective power ramping scheme to each of the two or more preamble sets, and wherein the communication interface is arranged to transmit the selected preamble sequence according to the respective power ramping scheme of the selected preamble set.

23. The wireless device according to claim 20 , wherein the wireless device is further arranged to re-configure an existing configuration of preamble sequences into new preamble sets based on a received re-configuration command.

24. The wireless device of claim 20 wherein each of the preamble sequences comprises the concatenation in time of the one or more identical short sequences (s[n]), each of the short sequences having the same time duration (T) as the OFDM symbol used for carrying the data traffic in the radio access network of the wireless device.

25. The wireless device of claim 24 wherein a plurality of the preamble sequences has a different number of repetitions of the short sequences.

26. A network node arranged to receive and to detect a preamble sequence transmitted over an uplink from a wireless device to the network node, the preamble sequence belonging to one out of two or more preamble sets, where each preamble set of the two or more preamble sets comprises a disjoint subset of a plurality of preamble sequences, the network node comprising: a memory; and at least one processor configured to execute instructions stored in the memory, whereby when executed, the network node is configured to: detect, via one or more detectors, preamble sequences belonging to respective preamble sets, wherein each preamble set is associated with at least one respective transmission condition of the uplink and at least one of the plurality of preamble sequences comprises a concatenation in time of one or more identical short sequences (s[n]), each of the short sequences having a same time duration (T) as an orthogonal frequency-division multiplexing, OFDM, symbol used for carrying data traffic in a radio access network of the network node; receive, via a communication interface, a radio signal from the wireless device, over the uplink, comprising the preamble sequence.

27. The network node according to claim 26 , wherein each preamble set is further associated with at least one respective preamble sequence processing capability and/or detector implementation of the network node.

28. The network node according to claim 26 , wherein the communication interface is arranged to transmit a message to the wireless device comprising information related to a preamble sequence processing capability, and/or a detector implementation of the network node.

29. The network node of claim 26 wherein each of the preamble sequences comprises the concatenation in time of the one or more identical short sequences (s[n]), each of the short sequences having the same time duration (T) as the OFDM symbol used for carrying the data traffic in the radio access network of the network node.

30. The network node of claim 29 wherein a plurality of the preamble sequences has a different number of repetitions of the short sequences.

31. The network node of claim 26 wherein at least two of the two or more preamble sets are associated with a different detection window.